A shape that is lighter and has higher rigidity! Here are examples of topology optimization.
This article introduces a case study of topology optimization for a crankshaft. Topology optimization is performed when static loads are applied to the bracket (crank). We remove excess material from the given design space to achieve a shape that is lighter while maintaining high rigidity. As a result, compared to the shape before optimization, the mass has decreased from 349.3 [g] to 340.6 [g], and the displacement has also reduced from 8.3 [mm] to 5.7 [mm], indicating a shape that is both lighter and more rigid. [Contents] ■ Model diagram ■ Initial shape ■ Optimization results *Details of the case study can be viewed through the related links. For more information, please feel free to contact us.
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